Пример #1
0
 def consequences(self, filter=None, table_theories=None):
     """Return all the true instances of any table in this theory."""
     # find all table, theory pairs defined in this theory
     if table_theories is None:
         table_theories = set()
         for key in self.rules.keys():
             table_theories |= set([(rule.head.table.table,
                                     rule.head.table.service)
                                    for rule in self.rules.get_rules(key)])
     results = set()
     # create queries: need table names and arities
     # TODO(thinrichs): arity computation will need to ignore
     #   modals once we start using insert[p(x)] instead of p+(x)
     for (table, theory) in table_theories:
         if filter is None or filter(table):
             tablename = compile.Tablename(table, theory)
             arity = self.arity(tablename)
             vs = []
             for i in range(0, arity):
                 vs.append("x" + str(i))
             vs = [compile.Variable(var) for var in vs]
             tablename = table
             if theory:
                 tablename = theory + ":" + tablename
             query = compile.Literal(tablename, vs)
             results |= set(self.select(query))
     return results
Пример #2
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    def apply_full(self, term, caller=None):
        """Recursively apply unifiers to TERM.

        Return (i) the final value and (ii) the final unifier.
        If the final value is a variable, instantiate
        with a new variable if not in KEEP_VARS
        """
        # LOG.debug("apply_full(%s, %s)", term, self)
        val = self.value(term)
        if val is None:
            # If result is a variable and this variable is not one of those
            #   in the top-most calling context, then create a new variable
            #   name based on this Binding.
            # This process avoids improper variable capture.
            #   Outputting the same variable with the same binding twice will
            #   generate the same output, but outputting the same variable with
            #   different bindings will generate different outputs.
            # Note that this variable name mangling
            #   is not done for the top-most variables,
            #   which makes output a bit easier to read.
            # Unfortunately, the process is non-deterministic from one run
            #   to the next, which makes testing difficult.
            if (caller is not None and term.is_variable() and
                    not (term in caller.variables and caller.binding is self)):
                return (compile.Variable(term.name + str(id(self))), self)
            else:
                return (term, self)
        elif val.unifier is None or not val.value.is_variable():
            return (val.value, val.unifier)
        else:
            return val.unifier.apply_full(val.value)
Пример #3
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    def eliminate_self_joins(cls, formulas):
        """Remove self joins.

        Return new list of formulas that is equivalent to
        the list of formulas FORMULAS except that there
        are no self-joins.
        """
        def new_table_name(name, arity, index):
            return "___{}_{}_{}".format(name, arity, index)

        def n_variables(n):
            vars = []
            for i in xrange(0, n):
                vars.append("x" + str(i))
            return vars

        # dict from (table name, arity) tuple to
        #      max num of occurrences of self-joins in any rule
        global_self_joins = {}
        # remove self-joins from rules
        results = []
        for rule in formulas:
            if rule.is_atom():
                results.append(rule)
                continue
            LOG.debug("eliminating self joins from %s", rule)
            occurrences = {}  # for just this rule
            for atom in rule.body:
                table = atom.tablename()
                arity = len(atom.arguments)
                tablearity = (table, arity)
                if tablearity not in occurrences:
                    occurrences[tablearity] = 1
                else:
                    # change name of atom
                    atom.table = new_table_name(table, arity,
                                                occurrences[tablearity])
                    # update our counters
                    occurrences[tablearity] += 1
                    if tablearity not in global_self_joins:
                        global_self_joins[tablearity] = 1
                    else:
                        global_self_joins[tablearity] = (max(
                            occurrences[tablearity] - 1,
                            global_self_joins[tablearity]))
            results.append(rule)
            LOG.debug("final rule: %s", rule)
        # add definitions for new tables
        for tablearity in global_self_joins:
            table = tablearity[0]
            arity = tablearity[1]
            for i in xrange(1, global_self_joins[tablearity] + 1):
                newtable = new_table_name(table, arity, i)
                args = [compile.Variable(var) for var in n_variables(arity)]
                head = compile.Literal(newtable, args)
                body = [compile.Literal(table, args)]
                results.append(compile.Rule(head, body))
                LOG.debug("Adding rule %s", results[-1])
        return results
Пример #4
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def retrieve(theory, tablename):
    # type: (topdown.TopDownTheory, str) -> List[ast.Literal]
    """Retrieves all the values of an external table.

    Performs a select on the theory with a query computed from the schema
    of the table.
    """
    arity = theory.schema.arity(tablename)
    table = ast.Tablename(tablename, theory.name)
    args = [ast.Variable('X' + str(i)) for i in range(arity)]
    query = ast.Literal(table, args)
    return theory.select(query)
Пример #5
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 def consequences(self, filter=None, table_theories=None):
     """Return all the true instances of any table in this theory."""
     # find all table, theory pairs defined in this theory
     if table_theories is None:
         table_theories = set()
         for key in self.rules.keys():
             table_theories |= set([(rule.head.table, rule.head.theory)
                                    for rule in self.rules.get_rules(key)])
     results = set()
     # create queries: need table names and arities
     for (table, theory) in table_theories:
         if filter is None or filter(table):
             arity = self.get_arity(table, theory=theory, local_only=True)
             vs = []
             for i in xrange(0, arity):
                 vs.append("x" + str(i))
             vs = [compile.Variable(var) for var in vs]
             tablename = table
             if theory:
                 tablename = theory + ":" + tablename
             query = compile.Literal(tablename, vs)
             results |= set(self.select(query))
     return results
Пример #6
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 def test_arity(self):
     lit = ast.Literal(
         ast.Tablename('t'),
         [ast.Variable('x'), ast.Variable('x')])
     self.theory.insert(lit)
     self.assertEqual(2, self.theory.arity('t'))